Identifying relevant messages in a conversation graph

ABSTRACT

A method and system for identifying relevant messages in a conversation graph includes identifying a context message within the conversation graph. The context message is marked as relevant and additional messages are marked as relevant based on various criteria. A plurality of authors of messages marked as relevant is identified and a plurality of unmarked messages authored by the plurality of authors is marked as relevant. In addition, a plurality of parent messages of messages marked as relevant are identified and marked as relevant. A list comprising messages marked as relevant is then provided to a user. Multiple steps can be repeated until convergence after which the list can be provided to the user.

RELATED APPLICATIONS

This application is a continuation of, and claims priority to, U.S.patent application Ser. No. 14/824,015, filed on Aug. 11, 2015, entitled“IDENTIFYING RELEVANT MESSAGES IN A CONVERSATION GRAPH”, which is acontinuation of U.S. patent application Ser. No. 13/736,634, filed onJan. 8, 2013, now U.S. Pat. No. 9,143,468, and related to U.S. patentapplication Ser. No. 13/770,955, filed on Feb. 19, 2013, now U.S. Pat.No. 9,449,050, and to U.S. patent application Ser. No. 14/020,447, filedon Sep. 6, 2013, now U.S. Pat. No. 9,418,117, all of which areincorporated herein by reference in their entirety.

BACKGROUND

The present disclosure relates generally to message presentation, andmore particularly to conversation graph pruning.

Social networking services allow users to author and share messages withmultiple users. For example, a first user can author and publish amessage for other users to read. The messages can be any of a variety oflengths which may be limited by a specific messaging system or protocol.For example, a short messaging service protocol typically limitsmessages to 140 characters in length.

Users interested in viewing messages authored by a particular user canchoose to follow the particular user. A first user can follow a seconduser by identifying the second user as a user the first user would liketo follow. After the first user has indicated that they would like tofollow the second user, the first user will be provided with messagesauthored by the second user. Users can choose to follow multiple users.Users can also respond to messages and thereby have conversations withone another. Both unidirectional (e.g., follower/followee) andbidirectional (e.g., friendship) relationships may exist, depending onthe type of network.

A conversation consists of a root message, messages in reply to the rootmessage, messages in reply to the messages in reply to the root message,etc. A conversation graph is a data structure which includes allmessages in a conversation. Users can view an entire conversation basedon messages included in the conversation graph. Messages in theconversation can be displayed to a user in a variety of ways. Forexample, all messages in a conversation can be displayed in a listordered based on the time each message was sent. However, when aconversation comprises a large number of messages, the number ofmessages displayed can be very large and may overwhelm the user.

SUMMARY

In one or more embodiments, a method for identifying relevant messagesin a conversation graph includes identifying a context message withinthe conversation graph. The context message is marked as relevant andadditional messages are marked as relevant based on various criteria. Aplurality of authors of messages marked as relevant is identified. Aplurality of unmarked messages authored by the plurality of authors isalso marked as relevant. In addition, a plurality of parent messages ofmessages marked as relevant is identified and marked as relevant. A listcomprising messages marked as relevant is then provided to a user.

In one or more embodiments, several of the steps described above arerepeated until convergence and then the list is provided to a user.

Prolific authors can be identified and messages authored by prolificauthors can be marked as relevant. Similarly, credible authors can beidentified and messages authored by credible authors can be marked asrelevant. Users mentioned in a message, but not identified as a sender,can be identified as relevant users. Messages authored by relevant userscan be marked as relevant.

In one or more embodiments, a root message of the conversation graph ismarked as relevant prior to the identification of the plurality ofauthors. In one or more embodiments, the context message is the rootmessage of the conversation graph. In another embodiment, the contextmessage is identified by a user via a user selection. A relevantconversation, in one or more embodiments, comprises marked messages fromthe conversation graph.

A system and computer readable medium for identifying relevant messagesin a conversation graph are also described.

These and other advantages of the invention will be apparent to those ofordinary skill in the art by reference to the following detaileddescription and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts a diagram of a messaging platform in accordance with oneor more embodiments of the invention.

FIG. 2 depicts a message table in accordance with one or moreembodiments of the invention.

FIG. 3 depicts an account table in accordance with one or moreembodiments of the invention.

FIG. 4 depicts a graphical representation of an example conversationgraph in accordance with one or more embodiments of the invention.

FIG. 5 depicts a flowchart of a method for identifying relevant messagesin accordance with one or more embodiments of the invention.

FIGS. 6A and 6B depict example user interfaces in accordance with one ormore embodiments of the invention.

FIG. 7 depicts a high-level block diagram of a computer for identifyingrelevant messages in a conversation graph, in accordance with one ormore embodiments of the invention.

DETAILED DESCRIPTION

A messaging platform facilitates viewing of messages by users. Messagescan be viewed in a variety of ways. For example, all messages associatedwith a particular account can be viewed by a user. Messages can also beviewed based on relationships between messages. In one or moreembodiments, a user can view one or more messages included in aconversation graph. A conversation graph is a data structure whichincludes all messages in a conversation. In one or more embodiments, aconversation graph is a data structure comprising a root message and oneor more messages in reply, directly or indirectly, to the root message.A root message is a message which is identified as being not in reply toany other message. A user can also view messages related to a particularmessage selected by a user, wherein the particular message selected isreferred to as a context message. The messaging platform receives,stores, and delivers messages to and from users.

It should be noted that messages are associated with a particularaccount which may be associated with an individual user or an entitysuch as a business or service. For example, a news service may have anaccount which is modified by one or more users. In this example, theaccount is associated with the news service and not a particular user.

In one or more embodiments, various criteria and algorithms are used inorder to identify relevant messages in a conversation graph. A subset ofthe messages in the conversation graph may be marked as relevant inaccordance with methods described herein based on one or more contextdata items (e.g., a context message). For purposes of this disclosure,this subset of relevant messages may be referred to as a relevantconversation. Any portion of a relevant conversation may be returned inresponse to a request for relevant messages.

FIG. 1 depicts a diagram of a messaging platform 100 according to oneembodiment. Messaging platform 100 includes a routing module 125, agraph fanoutmodule 130, a delivery module 135, conversation repository148, message repository 140, connection graph repository 142, streamrepository 144, account repository 146, conversation module 120,including a semantic analysis module 128, and a front end module 110including an API module 112.

In one or more embodiments, routing module 125 includes functionality toreceive one or more messages, assign a message identifier (referred toas a message ID) to each message, and store the message(s) and messageID(s) in message repository 140. In one embodiment, routing module 125also includes functionality to determine an identification of a senderof each message and transmit the identification of the sender to graphfanoutmodule 130.

In one or more embodiments, graph fanoutmodule 130 includesfunctionality to receive an identification of the sender (i.e., aparticular account via which a user is sending a message) of a message,retrieve user graph data (i.e., information pertaining to a user asdescribed in further detail below) from connection graph repository 142,and/or determine which accounts should receive the message. User graphdata, for example, can identify which accounts in the messaging platformare “following” the particular account, and are therefore subscribed toreceive messages from the particular account. User graph data mayinclude any type of unidirectional (e.g., follower, subscription, etc.)and/or bidirectional (e.g., friendship, etc.) relationships amongaccounts. Connection graph repository 142 stores user graph data andtransmits information to graph fanoutmodule 130 including a list ofaccounts associated with (e.g., following, friends with, subscribed to,etc.) the particular account in response to a request from graphfanoutmodule 130.

In one or more embodiments, delivery module 135 includes functionalityto receive the list of accounts from graph fanoutmodule 130 and/or themessage identifier generated by routing module 125. In response toreceipt of this information, delivery module 135 can insert the messageidentifier into stream data stored in stream repository 144. In one ormore embodiments, stream repository 144 stores content (e.g., messageidentifiers) received from delivery module 135 and/or responds torequests for information received from, for example, front end module110 or conversation module 120. Stream data stored in stream repository144 can make up one or more streams associated with one or more accountsof the messaging platform 100. A stream may include a dynamic list ofmessages associated with one or more accounts and/or can reflect anyarbitrary organization of messages that is advantageous for the user ofan account.

In one or more embodiments, account repository 146 includesfunctionality to receive, store, and/or transmit data concerningaccounts. For example, account repository 146 may be configured to storeinformation related to accounts such as contact information, locationinformation (e.g., an address), and etc. Account repository 146, asshown in FIG. 1, is in communication with front end module 110 andconversation module 120.

In one or more embodiments, conversation module 120 includesfunctionality to identify one or more relevant conversations based on aconversation graph. For example, conversation module 120 may beconfigured to perform the functions described herein in connection withFIG. 5 and/or to receive requests from a user via front end module 110.In one embodiment, relevant conversations determined by conversationmodule 120 are stored in conversation repository 148. Conversationrepository 148 also includes functionally to transmit relevantconversations, and/or a list of messages from a relevant conversation,in response to requests from, for example, conversation module 120 orfront end module 110 via conversation module 120. Semantic analysismodule 128, in one or more embodiments, is included in conversationmodule 120. In other embodiments, semantic analysis module 128 may be amodule separate from conversation module 120. Semantic analysis module128 includes functionality to identify one or more topics associatedwith messages, accounts, and/or conversations as described in furtherdetail below.

Front end module 110, in one or more embodiments, includes functionalityto transmit and receive information from one or more clients (e.g.,client 105). Front end module 110 includes functionality to servemessage streams via interaction with various modules such asconversation module 120. In one embodiment, the functionality describedin conjunction with front end module 110 is contained in API module 112.Front end module 110 is in communication with client 105 which, in oneembodiment, is used an end point as described below.

An overview of the operation of messaging platform 100, in accordancewith various embodiments of the invention, is as follows.

In one or more embodiments, client 105 includes functionality to composeone or more messages in response to user input. For example, a userassociated with a particular account can author a message to be sentfrom any entry point (e.g., client 105). In general, the entry point canbe based on the operation of any computing device, for example, a mobilephone, a personal computer (laptop, desktop, or server), or aspecialized device having communication capability. The entry point canutilize any of a number of interfaces including a web-based client, aShort Messaging Service (SMS) interface, an instant messaging interface,an email-based interface, an API function-based interface, etc. Theentry point may be configured to transmit the message through acommunication network to messaging platform 100.

In one or more embodiments, routing module 125 receives the message and,in response, stores the message in message repository 140. The messageis assigned an identifier referred to as a message ID which is storedalong with the message in message repository 140. Routing module 125 maybe configured to store an identification of a sender (e.g., an accountID associated with an individual or an account associated with anon-human entity such as a business or service) along with the messagein message repository 140.

In one or more embodiments, the identification of the sender is passedto graph fanoutmodule 130 which, in response, retrieves user graph datafrom connection graph repository 142. User graph data containsinformation indicating which accounts are associated with (e.g.,following) a particular account, and are therefore subscribed to receivemessages or indications regarding messages sent by a user via theparticular account. In one embodiment, the sender of the message doesnot specify recipients when posting the message to the messagingplatform 100. Graph fanoutmodule 130 uses the user graph data todetermine which accounts associated with the messaging platform 100should receive the message. In one embodiment, delivery module 135receives a list of accounts (from graph fanoutmodule 130) and themessage identifier (generated by routing module 125).

In one or more embodiments, delivery module 135 inserts the messageidentifier into one or more message streams associated with each accountidentified in the list of accounts. The message streams are stored instream repository 144. A message stream, in one or more embodiments,comprises messages associated with a particular account. For example,the home message stream of each account can include all messages postedby followed or friendedaccounts. In one or more embodiments, thefrontend module 110 includes functionality to create one or more messagestreams in response to user input. For example, a user may select anynumber of accounts to be included in a given stream. The stream willthen display only messages posted by the selected accounts. Messagestreams can reflect any organization of the messages that can beadvantageous for a user of an account on messaging platform 100.

In one or more embodiments, front end module 110 uses storage modules140, 142, 144 for serving messages to a user of an account on messagingplatform 100. In one or more embodiments, stream repository 144 isaccessed by front end module 110 to identify a particular messagestream. Messages identified by a particular message stream can then beretrieved from message repository 140. Message streams can beconstructed using information from connection graph repository 142 andstored in stream repository 144.

Similar to the entry point, a user can use any end point (e.g., client105) to receive one or more messages. The end point can also be anycomputing device providing one or more of a number of interfaces. Forexample, when the user uses a web-based client to access their messages,front end module 110 can be used to serve one or more message streams tothe client. Where the user uses a client that accesses messagingplatform 100 through an API (application programming interface), APImodule 112 can be utilized to serve one or more message streams to theclient for presentation to the user. Similarly, different forms ofmessage delivery can be handled by different modules in front end module110 (e.g., by additional modules not shown). The user can specifyparticular receipt preferences which are implemented by modules in frontend module 110.

Messages, in one or more embodiments, are stored in message repository140. FIG. 2 depicts an example of a message table 200 which includesmultiple records (e.g., 212, 214, 216) containing message data fields202-210 associated with a message identified by message ID 202. AuthorAccount ID field 204 contains an identifier indicating an accountassociated with an author of the message identified by message ID 202.In one or more embodiments, each account is associated with a uniqueaccount ID. For example, a user named Adam Smith may select theidentifier “@adam.” Other identifiers, such as alpha-numericidentifiers, can be selected as well. Message content 206 contains thecontent of a message identified by message ID 202 field. Typically, thecontent of a message consists of text. However, in one or moreembodiments of the invention, message content can contain various mediaand/or may include one or more references to various media (e.g., auniform resource locator (URL) of a video).

In one or more embodiments, relevant participant(s) account ID 208 fieldcontains identifiers of one or more relevant accounts. In oneembodiment, the relevant participant(s) account ID 208 excludes theauthoring account and/or the parent account (i.e., the author of amessage which the message is in reply to) if the message is a replymessage. For example, message content 206 can contain text such as“@johnqpublic is correct!”. The character string “@johnqpublic”indicates that an account associated with the “@johnqpublic” identifieris mentioned in the content of the message. The mentioned accountidentifier (“@johnqpublic”) is inserted into relevant participant(s) 208field. Identified relevant participants can then be used as a factor indetermining which messages in a conversation graph to surface to one ormore users (i.e., which messages to include in a relevant conversation).

In one or more embodiments, the conversation module of FIG. 1 includesfunctionality to identify relevant participants. Relevant participantsmay be identified based on a variety of different data. For example,relevant participants may be tagged by the user during composition ofthe message and may be stored as metadata associated with the message(i.e., not within the message content). In another example, relevantparticipants may be explicitly tagged within the content of the message,as in the example discussed above (e.g., “@johnqpublic is correct!”).Lastly, in yet another example, relevant participants are inferred basedon text or data within the content of the message (e.g., facialrecognition, display name matching, etc.) In other words, in one or moreembodiments, a relevant participant can be identified based on acharacter string of text which is not explicitly tagged as an accountidentifier (e.g., not preceded by the “@” symbol). For example, a usermay be identified by the user's real name. If the user's real name canbe found in display name column 304 of FIG. 3 (described in furtherdetail below), then that user's account ID can be inserted into relevantparticipant(s) Account ID 208 field of an appropriate record.

In one or more embodiments, in reply to field 210 identifies a parentmessage that a particular message is in reply to. For example, record214 identifies message ID number 2 which is identified as being in replyto message ID number 1. The relationships among messages may be used toidentify various messages for inclusion in a conversation graph. Thereply relationships between two or more messages may be identified basedon a variety of different data, in accordance with various embodiments.In one or more embodiments, the reply structure is identified based onmetadata associated with each message which is received from a clientused to compose the message. For example, a user may click on a “Reply”link displayed below a message displayed in the user's home stream. Theclient may then display a message composition box for drafting a replymessage. The client may submit metadata including the reply relationship(i.e., a message ID of the parent message) with the reply message.Conversely, in another example, the reply relationship may be explicitlydefined by the user within the message content. In this example, thereply structure may be identified by identifying one or more account IDsand/or message IDs mentioned within the message content. The designationbetween authors of parent messages and relevant participants, if any,may be made based on any number of syntactical rules. Thus, the messageplatform 100 may require that if a message begins with an account ID(e.g., “@john”), the message will be marked as being in reply to alatest message from the mentioned account ID. Thus, the reply to field210 may be populated based on any means of identifying a reply structureof two or more messages. Lastly, it should be noted that while many ofthe examples depicted herein include a requirement that each message canonly have one parent message, embodiments of the invention may beimplemented in a system allowing multi-parent reply structures (i.e., asingle message being in reply to two or more parent messages).

Connection graph data, in one or more embodiments, is stored inconnection graph repository 142. Connection graph data, in oneembodiment, reflects which accounts in messaging platform 100 areassociated with (e.g., following, friends with, subscribed to, etc.) aparticular account and are, therefore, subscribed to receive statusmessages from the particular account. Connection graph data can alsoreflect more sophisticated graph relationships between the accounts.FIG. 3 depicts account data table 300 which includes multiple records310-324 containing user data 304-306 associated with an accountidentified by account ID 302. Account ID field 302 contains anidentifier which uniquely identifies each account of the messagingplatform 100. In one embodiment, the account ID is selected by a user.Although many users may choose to select an account ID that is aconcatenation of the user's first and last name, or the name of abusiness or service, account ID can be an arbitrary alpha-numericstring. Display name 304 contains an identifier indicating a user'sname. In one or more embodiments, display name 304 is a characterstring, typically chosen by a user and comprising the user's actualname. In other embodiments, display name 304 may be a business name, apseudonym, and/or any other display name selected by a user of theaccount. Each display name 304 is associated with a particular accountID 302. In one or more embodiments, user names and account IDs are usedto facilitate recognition of authors by readers and are used bymessaging platform 100 to perform various functions.

In one or more embodiments, followed by field 306 contains identifiersindicating accounts following an account identified by account ID 302.In one or more embodiments, a user can choose to follow another account.A user following a particular account receives messages authored by auser associated with the particular account intended for public viewing.For example, if the user associated with the particular account enters amessage for public viewing, all users following the particular accountcan view the message. In one or more embodiments, users following theparticular account will receive a push notification (on their computingdevice) indicating that a user associated with the particular accounthas posted a message. In one or more embodiments, users following theparticular account will receive a copy of the message the user of theparticular account authored for public viewing. For example, FIG. 3shows that account “@adam” is followed by“@keith”, “@brian”, “@carrie”,and “@david”. As such, “@keith”, “@brian”, “@carrie”, and “@david” aresubscribed to receive messages authored by a user associated with theaccount “@adam”. In one or more embodiments, followed by field 306 isimplemented as a bidirectional relationship field (e.g., friendship) andrepresents a mutual connection between accounts of the messagingplatform.

Message repository 140 can be used to generate message streamscomprising lists of messages for presentation to a user based on variouscriteria. For example, a message stream can contain a list of messagesfrom accounts that a particular account is associated with (e.g.,following, friends with, etc.).

Message stream data, in one or more embodiments, is stored in streamrepository 144.

FIG. 4 is an example depiction of a conversation graph 499 comprisingmessages 400 through 416. A conversation graph is a data structureincluding messages of a conversation. In one or more embodiments, theconversation graph includes a root message (e.g., message 400 of FIG. 4)and one or more messages connected, either directly or indirectly, tothe root message (e.g., messages 404-416 of FIG. 4). The relationshipsbetween the nodes of the conversation graph represent a reply structureof the conversation, wherein each child node is a reply message to atleast one corresponding parent node, in accordance with variousembodiments of the invention. The author of a message is shownunderlined in FIG. 4. For example, the author of message 400 isassociated with the account “@adam” as identified by the underlining.Messages 400-416 correspond to message data stored in table 200 of FIG.2. For example, record 212 of table 200 is identified in message IDfield 202 as message “1” which corresponds to message 400 depicted inFIG. 4. Record 214 of table 200 is identified in message ID field 202 asmessage “2” which corresponds to message 402 in FIG. 4. Record 216 oftable 200 is identified in message ID field 220 as message “3” whichcorresponds to message 404 in FIG. 4.

It should be noted that messages can be categorized into various types.For example, a message posted by a particular author without anindication that the message is directed to a particular account may bereferred to, in one embodiment, as a broadcast message or simply amessage. Broadcast messages are displayed to users with accountsassociated with (e.g., following, friends with, etc.) the account of thebroadcast message. A message in reply to another message is considered areply message or, more simply, a reply. In one embodiment, the categoryof a message determines whether the message will be designated to bedisplayed to another account or included in other account's messagestreams.

A direct message (also referred to as a private message) is a messagethat explicitly identifies one or more accounts as recipients. Forexample, a message from a user associated with the account @keith thatis explicitly directed (by the user authoring the message) to theaccount @carrie is considered a direct message from @keith to @carrie.

Although conversation graph 499 is depicted in FIG. 4 using a graphicalformat, the messages depicted in FIG. 4, in one or more embodiments, arestored in message repository 140 in any appropriate data structure.Message 400, in this example, is a root message (i.e., the parent of allmessages shown in FIG. 4). Child message 402 is a reply message that isin reply to message 400 as identified by the line connecting message 402to message 400. Child messages 404 and 406 are reply messages that arein reply to message 402, the relationships of which are shown by thelines connecting the messages. In this example, messages 402-416 arereply messages under root message 400.

Conversation graph 499, in one embodiment, is determined based on thereply structure of messages 400-416. The reply structure may beidentified based on metadata associated with each message and/or replyinformation identified from within the message content, in accordancewith various embodiments. For example, in one embodiment, metadatastored in the In Reply to field 210 of table 200 is used to generate aconversation graph. More specifically, the metadata maintains the replyrelationships between multiple messages of a conversation. Thus, in thisexample, each message can be in reply to only one parent message, andonly messages which are in the reply chain of the root message areincluded in the conversation graph. It should be noted that displayingmessages solely from accounts having a predefined graph relationshipwith a user's account may render the conversation incomprehensible tothe user.

FIG. 5 depicts a flow chart of a method for identifying relevantmessages in a conversation graph. In one or more embodiments, some orall of the functionality for performing the method depicted in FIG. 5resides in conversation module 120. While the various steps in thisflowchart are presented and described sequentially, one of ordinaryskill will appreciate that some or all of the steps may be executed indifferent order and some or all of the steps may be executed inparallel. Further, in one or more embodiments of the invention, one ormore of the steps described below may be omitted, repeated, and/orperformed in a different order. Accordingly, the specific arrangement ofthe steps shown in FIG. 5 should not be construed as limiting the scopeof the invention.

At step 502, a context message is identified. A context message may beany one of the messages in a conversation graph. In one or moreembodiments of the invention, the context message can be used toidentify a context of a request for a relevant messages. Examples of acontext message may include, but are not limited to, a message selectedby a user, a message including a specified keyword or topic, a messagereturned in response to a search request, a message associated with anadvertisement, and/or any other message included in at least oneconversation graph. In one or more embodiments, the context message isidentified based on a user selecting a message from a message streampresented via front end module 110. In other embodiments, the contextmessage may be identified as a message including a specified keyword ortopic, a message returned in response to a search request, and/or amessage associated with an advertisement.

At step 504, the context message is marked as relevant. Marking amessage as relevant, in one or more embodiments, may comprise adding amessage ID of the message to a list of relevant messages. In one or moreembodiments, the list of relevant messages is stored as part of arelevant conversation in conversation repository 148 (shown in FIG. 1).Additional messages may be marked as relevant based on one or more ofthe following criteria and/or algorithms.

In one or more embodiments, the conversation graph is truncated, priorto performing steps 506-518, to include only (1) the root message, (2)the context message, (3) all messages connecting the root message to thecontext message, and (4) all direct or indirect children of the contextmessage. In this way, the conversation graph is modified to include onlya single branch of messages connecting the root message to the contextmessage, as well as any number of branches below the context message.

At step 506, a set of authors of messages marked as relevant isidentified. It should be noted that some steps of flowchart 500 will berepeated as described below. As such, although step 506 indicates that aset of authors of messages marked as relevant is identified, the firstexecution of step 506 may result in only a single author beingidentified (i.e., the author of the context message). In the firstexecution of step 506, the author of the context message is identifiedas one of the set of authors of messages marked as relevant since thecontext message is marked as relevant.

At step 508, a plurality of unmarked messages authored by the set ofauthors is identified. For example, messages in the conversation graphauthored by one of the set of authors from step 506 are identified. Atstep 510, the unmarked messages authored by the set of authors is markedas relevant.

At step 512, parent messages of messages marked as relevant areidentified. A parent message of a particular message is a message towhich the particular message is in reply. For example, if message 410depicted in FIG. 4 is marked as relevant, message 404 would beidentified as relevant as well since message 410 is depicted as beingthe child of message 404 indicating that message 410 is in reply tomessage 404 (i.e., message 404 is a parent message of message 410). Atstep 514, the parent messages are marked as relevant.

Optionally, at step 515, additional messages are marked as relevantbased on various criteria and algorithms described below. In one or moreembodiments, step 515 occurs after step 516 and, thus, is only performedone time. In other embodiments, step 515 is part of the iterated portionof the method and is performed multiple times.

At step 516, it is determined whether convergence has occurred. In oneor more embodiments, convergence occurs when execution of steps 506-514(or, alternatively, 506-515) result in no additional messages for aparticular conversation being marked as relevant. Alternatively, in oneor more embodiments, convergence is deemed to occur after a fixed numberof iterations of steps 506-514 (or, alternatively, 506-515). Ifconvergence has not occurred, the method proceeds to step 506. Ifconvergence has occurred, then the method proceeds to step 518.

At step 518, a list comprising the messages marked (e.g., identified) asrelevant is provided. In one or more embodiments, the list is presentedto a user in a web page via front end module 110. At step 520, themethod ends. For example, the list of relevant messages can be presentedto a user in an in-line expansion of a message stream, in response tothe user expanding or otherwise engaging with a context message (e.g.,clicking on a “view conversation” hyperlink). Alternatively, in anotherexample, in response to selecting an option to view the relevantmessages, the user may be redirected from the message stream to aseparate pane, page, or window which includes the relevant messages. Anyuser interface for displaying or expanding messages may be used, inaccordance with various embodiments of the invention.

In one or more embodiments, one or more relevant conversations aredetermined each time a particular user request input is received and theresponse to the user request input is not saved. In another embodiment,relevant conversations determined by conversation module 120 are storedin conversation repository 148 for retrieval when messages from the samerelevant conversation are requested by a user. For example, a relevantconversation determined by conversation module 120 can be stored inconversation repository 148 in any appropriate data structure.

In one or more embodiments of the invention, the list of relevantmessages is sorted in chronological order of the time the relevantmessages were posted to the messaging platform. The list may include anidentifier designating the context message.

In one or more embodiments of the invention, the list of relevantmessages is smaller than the relevant conversation. Thus, a predefinednumber of the relevant messages are returned in response to the requestfor relevant messages. A subset of an already calculated relevantconversation may be selected for inclusion in the list, or the processof selecting relevant messages (e.g., the process described in FIG. 5)may be terminated upon identifying the predefined number of relevantmessages. In one or more embodiments, the relevant messages which arechronologically the closest to the context message are selected forinclusion in the list of relevant messages. Thus, for example, if 11relevant messages are required for a request, the list of relevantmessages can include 5 messages posted prior to the context message and5 messages posted after the context message. In one or more embodiments,a first predefined number of messages can be defined for messageschronologically preceding the context message and a second predefinednumber of messages may be defined for messages chronologicallysucceeding the context message. Thus, for example, conversation module120 can be configured to return a list of relevant messages including 3preceding messages and 5 succeeding messages. Any combination ofpreceding and/or succeeding messages can be used, in accordance withvarious embodiments of the invention.

In one or more embodiments, the size of the list of relevant messagescan be dependent on additional context data associated with a requestfor relevant messages. Examples of additional context data can include,but are not limited to, client information (i.e., information regardinga client which originated the request for the relevant conversation),client platform data (e.g., operating system, version, etc.), clientview information (e.g., identification of the pane/page/view in whichthe relevant conversation will be displayed), and any other datarelevant to the request for the relevant conversation. Thus, forexample, conversation module 120 can be configured to return a smallernumber of relevant messages (i.e., based on a smaller predefined numberof messages for a request) for requests from a particular mobile client.Thus, it may be advantageous to increase or decrease the number ofrelevant messages based on one or more client restrictions orrequirements (e.g., limited display area on mobile devices).

In one or more embodiments, conversation module 120 is configured toreceive a request for additional relevant messages. Conversation module120 then returns an additional list of relevant messages from therelevant conversation. In one or more embodiments, the entire relevantconversation is stored in conversation repository 148 and only a portionof the relevant conversation is returned depending on the given request.For example, a list of 10 relevant messages may be returned in responseto a request from a mobile client. In this example, the relevantconversation is displayed to the user along with an option to expand theconversation upward or downward. Upon receiving a selection of theoption to expand the conversation downward, the client submits a requestfor 5 additional relevant messages, and conversation module 120identifies and returns the additional 5 relevant messages (i.e., eitherby identifying the messages in a cached relevant conversation or byperforming the process of selecting additional messages from theconversation graph).

Various additional criteria can be used to identify relevant messages ina conversation graph as represented at step 515 in FIG. 5. Theadditional criteria described below may be used to mark additionalmessages in a conversation as relevant messages based on auxiliaryconsiderations.

In one or more embodiments, relevant participants may be identifiedbased on the current list of messages marked as relevant. Relevantparticipants may be identified, for example, based on a relevantparticipant(s) account ID field of a message table (e.g., relevantparticipant(s) account ID 208 of FIG. 2, discussed above). In thisexample, all messages from the newly identified relevant participantsmay be marked as relevant. In one or more embodiments of the invention,all accounts associated with (e.g., followed by, friends with, etc.) therequesting account (or another account associated with a request forrelevant messages) are marked as relevant. Messages by the associatedaccounts are then marked as relevant messages. In other embodiments,only associated accounts with a minimum number of followers, credibilityrating, or other attribute are marked as relevant.

In one or more embodiments, in order to prevent gaps in the relevantconversation, additional messages are identified. For example, in one ormore embodiments of the invention, a shortest path may be identifiedbetween a particular marked message and a closest marked message in theconversation graph. In this example, all messages in the shortest path(up to a predefined maximum number of messages) are marked. In one ormore embodiments of the invention, any message in the shortest path maybe marked based on a predefined criteria or algorithm. For example, amessage at a mid-point of the shortest path may be marked. In theshortest path, a predefined number of the most-favorited messages,most-rebroadcasted messages, messages from authors with the highestcredibility, messages from the most-prolific authors, and/or messagesidentified using any combination of criteria may be marked, inaccordance with various embodiments of the invention. In one or moreembodiments of the invention, a most relevant path between a markedmessage and a next closest marked message in the conversation graph areidentified. A relevance score may be calculated for each node among oneor more potential paths between the marked nodes. A path relevance scoremay be calculated based on the relevance scores of each node in thepath. For example, the path relevance score may be calculated byaggregating the relevance scores of each node in the path and thenmultiplying the aggregate by a factor of the total number of nodes inthe path. In this example, the factor will lower the path relevancescore as the length of the potential path increases. Continuing theexample, the potential path with the highest path relevance score isthen selected and the nodes in the path are all marked. In one or moreembodiments of the invention, the process of marking nodes may end aftermarking these additional nodes (i.e., no other nodes may be marked) or,conversely, additional iterations of the marking process may continue.Any other variation of calculating the node relevance scores and thepath relevance scores may be used, in accordance with variousembodiments of the invention.

In one or more embodiments, authors (i.e., users and/or accountsassociated with users) that have authored more than a particular numberof messages can be identified as prolific authors. Messages authored byprolific authors can be marked as relevant. In addition, messagesauthored by users having a credibility score above a threshold can bemarked as relevant. A particular author's credibility score can becalculated algorithmically based on the particular author'srelationships and/or interaction with other users. For example, if aparticular user is followed by multiple high profile or prolificaccounts, the particular user will typically have a high credibilityscore. A credibility score can be based on a qualitative indicator(i.e., low, medium, high) or a quantitative indicator, such as a valuefrom 1 to 10.

Authors mentioned in relevant messages can be identified as relevantauthors. For example a message including the character string“@johnqpublic is correct!” mentions the account “@johnqpublic”. In oneor more embodiments, if the message is identified as relevant, theaccount “@johnqpublic” will be identified as a relevant author based onthe account being mentioned in the relevant message. It should be notedthat a user's name (e.g. “John Public”) may be used to identify anaccount mentioned in a message. For example, table 300 shown in FIG. 3may be used to determine that user name “Keith Jones” in record 310 isassociated with account ID “@Keith”.

A particular author may also be identified as a relevant author based onthe particular author identified as being associated with (e.g.,followed by, friends with, etc.) an author of a context message. Forexample, record 310 of FIG. 3 indicates that “@adam” is followed by“@keith”. In this example, “@adam” would be identified as a relevantauthor with respect to a context message authored by “@keith”.

In one or more embodiments of the invention, messages authored by one ormore users associated with one or more accounts may be deemed relevantbased on context-specific data. In other words, an account may berelevant with respect to one conversation and non-relevant with respectto another conversation, depending on the context-specific data andcriteria used. Examples of context-specific data may include, but arenot limited to, a topic of a message, one or more keywords (e.g.,denoted by a hash tag) identified in a message (e.g., a root message orcontext message), a conversation topic of a conversation including amessage, a keyword and/or topic of a search request, and/or any othercontext specific data associated with a request for relevant messages.In one or more embodiments of the invention, the conversation module 120is configured to identify a topic associated with a message (e.g., acontext message of a request for relevant messages). The conversationmodule 120 may be configured to submit the text of the message as aninput to a semantic analysis module 128.

In one or more embodiments of the invention, semantic analysis module128 includes functionality to identify one or more topics associatedwith messages, accounts, and/or conversations. Semantic analysis module128 may analyze a message based on frequency of a word, density of aword, connotations of a word, semantic equivalents of a word, sentimentsassociated with a word, and/or any other criteria for categorizing anaccount, message, or conversation. In one or more embodiments of theinvention, semantic analysis module 128 includes functionality tocalculate a relevance score representing a relevance of a message,account, or conversation to a topic. Semantic analysis module 128 maythen provide one or more relevance scores to the conversation module inresponse to a request. The conversation module 120 may utilize the oneor more relevance scores to determine a relevance between accounts,messages, and/or conversations. For example, the conversation module 120may identify a high relevance of a conversation to a predefined topic.In this example, the conversation module 120 may then identify one ormore authors of messages in the conversation with high relevance scoresto the same predefined topic. In other words, if a conversation has ahigh relevance score to the topic “basketball” the conversation module120 may identify one or more professional basketball players withmessages in the conversation graph (by virtue of the fact that abasketball player's account may have a high relevance score to the topic“basketball”). In this example, the conversation module 120 then marksone or more messages authored by these high relevance authors asrelevant. In one or more embodiments of the invention, one or morepredefined relevance threshold values may be used to determine if therelevance score is sufficient to designate the author as a highrelevance author. Any amount of further relevance analysis may beperformed (e.g., based on relevance of individual messages of the highrelevance authors in the conversation graph) to further reduce thenumber of messages marked as relevant, in accordance with variousembodiments of the invention.

In one or more embodiments of the invention, the conversation module 120includes functionality to use user graph data stored in connection graphrepository 142 to determine degrees of separation between one or moreaccounts. Relevant authors in a conversation graph may be identifiedbased on a predefined threshold of degrees of separation. For example,if a first account is an author of the context message and follows asecond account, the second account replying to a message authored by athird account can result in the third account being identified as arelevant author. In this example, all messages in the conversation graphwhich are authored by relevant authors can be marked as relevant. Thus,in one or more embodiments, accounts within a predefined degrees ofseparation threshold (with respect to a user's account and/or an accountof the context message) are marked as relevant accounts.

A message can be marked as relevant based on information related to anauthor of the message (i.e., the account used in authoring the message).In one or more embodiments, users can rate a particular user based onvarious factors such as quality of messages, popularity, etc. A ratingcan be assigned to the particular user based on this input. Messagesfrom the particular user can then be marked as relevant based on theuser's rating exceeding a predefined threshold rating.

In one or more embodiments, users can be verified using variouscriteria. For example, a particular user can be identified as a verifieduser in response to the user providing proof of identity. Messages byverified users can then be identified as relevant messages.

In one or more embodiments, a message can be identified as relevant withrespect to a context message based on a higher than expected amount ofengagement with the message (i.e., the engagement amount exceeding apredefined threshold). For example, a typical message may have one ortwo replies. In this example, if a message is determined to have greaterthan two replies, then the message can be marked as relevant based onthis relatively higher than expected amount of engagement. In addition,messages may be reposted by other users or identified as being foundinteresting (e.g., by being “favorited”, saved, or otherwise engagedwith, etc.). A message which has been reposted and/or identified asbeing found interesting may also be identified as relevant based on thenumber of reposts and/or identifications.

It should be noted that, in one or more embodiments, data pertaining tousers (e.g., credibility, prolificacy, etc.) can be stored in connectiongraph repository 142. For example, a credibility field may be added torecords 310-318 of table 300 shown in FIG. 3. Similarly, data pertainingto a message (number of replies to, number of times identified asinteresting, etc.) can be stored in message repository 140. For example,a “number of replies to” field can be added to the records of table 200shown in FIG. 2.

The following section describes various examples of the invention. Theexamples are included to aid in the understanding of the invention butare not intended to limit the scope of the invention.

FIG. 6A depicts example user interface 600 according to one embodimentin which messages are displayed to a user. The particular account forwhich the user interface is displaying messages is identified by accountfield 602. Icons depicted below account field 602 pertain to functions auser can select. Stream field 604 can be selected (e.g., touching atouch screen over the icon indicating stream field 604) in order todisplay a home stream of messages. Messages field 606 can be selected inorder to display a particular group of messages posted by the account(602). Lists field 608 can be selected in order to select a messagestream corresponding to a particular list of accounts selected by theuser. Profile field 610 can be selected in order to open a userinterface in which a user can modify account information and settings.Search field 612 can be selected in order to search messages based onvarious user selected criteria. New message icon 614 can be selected inorder to author a new message.

In the example of FIG. 6A, the home stream is displayed by default.Messages 620, 622, and 630 are displayed in the home stream based onaccount 602 (“Keith”) following the accounts “@brian” and “@adam” asshown in table 300 of FIG. 3. Messages 650, 652, 654, 656, and 658 arealso displayed in the home stream based on account 602 (“Keith”)additionally following the accounts “@bocci”, “@dylan”, “@debbie”,“@saveearth”, and “@news” (not shown in FIG. 3). The author of eachmessage, in one embodiment, is identified by the author's avatarfollowed by the author's account ID. For example, message 620 depicts ageneric avatar of the author followed by the author's account ID, inthis case, “@adam”. Messages 620, 622, and 630 contain a viewconversation link (e.g., view conversation link 632) which, in thisexample, is a hyperlink which indicates that relevant messages includingthe corresponding message can be viewed by selecting the hyperlink.

As depicted in FIG. 6A, message 620 is from account “@adam” and reads “Ihate football”. Message 622 is from account “@brian”, is directedtowards account “@adam”, and reads “How can you say that?” Message 630is from account “@brian” and is directed to account “@carrie” and reads“I love you anyway.” In this example, other relevant messages which arepart of the conversation are not displayed in the home stream becausethey are posted by accounts which are not followed by account 602. Inaddition, messages which do not pertain to the conversation are alsodisplayed in the home stream (i.e., messages 650, 652, 654, 656, and658).

Messages 620, 622, and 630 may appear to not make sense and may notprovide a user reading the messages with a complete understanding of theinteraction. Further, messages 650-658 can further confuse a readersince these messages are interspersed between messages 620, 622, and 630and are not related to the conversation. Hyperlink 632 in message 622indicates that there may be more messages in the conversation which arenot included in the current stream, or are dispersed throughout thestream. In this example, messages 620, 622, and 630 of FIG. 6A aredepicted as messages 400, 404, and 412 in conversation graph 499 of FIG.4.

Continuing the example, the user selects hyperlink 632 in message 622 inorder to view relevant messages. Based on the user's selection ofhyperlink 632, message 622 is identified as the context message. Sincemessage 622 corresponds to message 404 of FIG. 4, message 404 is markedas relevant based on its selection as the context message.

Continuing the example, a plurality of authors of messages marked asrelevant are identified. In this example, the account “@brian” isidentified as an author of a message (404) marked as relevant. Aplurality of unmarked messages authored by the plurality of authors isthen identified. In this example, message 412 is identified as anunmarked message authored by an author of a relevant message (i.e., theaccount “@brian” is the author of message 404) and is marked asrelevant.

Continuing the example, a plurality of parent messages of messagesmarked as relevant is then identified. In this example, message 402 isidentified as the parent of message 404, and message 408 is identifiedas the parent of message 412. Since messages 402 and 408 are identifiedas parent messages of messages marked as relevant, messages 402 and 408are marked as relevant.

Continuing the example, based on the marking of messages 412, 408, and402, it is determined that convergence has not occurred. In other words,since additional messages were marked as relevant in the last iterationof the method, convergence has not occurred. The process continues byidentifying and marking unmarked messages by authors marked as relevant.In this example, no additional messages are identified from authorsmarked as relevant. Next, message 400 is identified as a parent messageof a message marked as relevant (i.e., message 400 is the parent ofmessage 402, which is marked as relevant) and is thus marked asrelevant.

Continuing the example, it is again determined whether convergence hasoccurred. Since the last iteration produced a relevant message (400),convergence has not yet occurred and the process proceeds. In the finaliteration, no additional messages are marked as relevant from relevantauthors. Furthermore, no additional messages are marked as relevantbased on being a parent message of a message marked as relevant. Assuch, it is then determined that convergence has occurred and a relevantconversation comprising messages marked as relevant is provided. In thisexample, the relevant conversation comprises messages 620, 621, 622,626, and 630 of FIG. 6B which correspond to messages 400, 402, 404, 408,and 412 shown in FIG. 4.

FIG. 6B depicts example user interface 600 which displays a relevantconversation including messages 620, 621, 622, 626, and 630 in responseto selection of hyperlink 632 in message 622 of FIG. 6A. The messagesdisplayed in FIG. 6A are based on accounts “Keith” (i.e., account“@keith”) follows, while the messages displayed in FIG. 6B are messagesincluded in the relevant conversation generated based on an embodimentof the method depicted in FIG. 5 (discussed above). As depicted in FIG.6B, messages 620, 622, and 630 are augmented by the display of messages621 and 626. Since messages determined to be part of the relevantconversation are depicted in FIG. 6B, the user associated with theaccount “@keith” can gain a better understanding of the exchange.

Systems, apparatus, and methods described herein may be implementedusing digital circuitry, or using one or more computers using well-knowncomputer processors, memory units, storage devices, computer software,and other components. Typically, a computer includes a processor forexecuting instructions and one or more memories for storing instructionsand data. A computer may also include, or be coupled to, one or moremass storage devices, such as one or more magnetic disks, internal harddisks and removable disks, magneto-optical disks, optical disks, etc.

Systems, apparatus, and methods described herein may be implementedusing computers operating in a client-server relationship. Typically, insuch a system, the client computers are located remotely from the servercomputer and interact via a network. The client-server relationship maybe defined and controlled by computer programs running on the respectiveclient and server computers.

Systems, apparatus, and methods described herein may be implementedwithin a network-based cloud computing system. In such a network-basedcloud computing system, a server or another processor that is connectedto a network communicates with one or more client computers via anetwork. A client computer may communicate with the server via a networkbrowser application residing and operating on the client computer, forexample. A client computer may store data on the server and access thedata via the network. A client computer may transmit requests for data,or requests for online services, to the server via the network. Theserver may perform requested services and provide data to the clientcomputer(s). The server may also transmit data adapted to cause a clientcomputer to perform a specified function, e.g., to perform acalculation, to display specified data on a screen, etc. For example,the server may transmit a request adapted to cause a client computer toperform one or more of the method steps described herein, including oneor more of the steps of FIG. 5. Certain steps of the methods describedherein, including one or more of the steps of FIG. 5, may be performedby a server or by another processor in a network-based cloud-computingsystem. Certain steps of the methods described herein, including one ormore of the steps of FIG. 5, may be performed by a client computer in anetwork-based cloud computing system. The steps of the methods describedherein, including one or more of the steps of FIG. 5, may be performedby a server and/or by a client computer in a network-based cloudcomputing system, in any combination.

Systems, apparatus, and methods described herein may be implementedusing a computer program product tangibly embodied in an informationcarrier, e.g., in a non-transitory machine-readable storage device, forexecution by a programmable processor; and the method steps describedherein, including one or more of the steps of FIG. 5, may be implementedusing one or more computer programs that are executable by such aprocessor. A computer program is a set of computer program instructionsthat can be used, directly or indirectly, in a computer to perform acertain activity or bring about a certain result. A computer program canbe written in any form of programming language, including compiled orinterpreted languages, and it can be deployed in any form, including asa stand-alone program or as a module, component, subroutine, or otherunit suitable for use in a computing environment.

A high-level block diagram of an example computer that may be used toimplement systems, apparatus, and methods described herein is depictedin FIG. 7. Computer 702 includes a processor 704 operatively coupled toa data storage device 712 and a memory 710. Processor 704 controls theoverall operation of computer 702 by executing computer programinstructions that define such operations. The computer programinstructions may be stored in data storage device 712, or other computerreadable medium, and loaded into memory 710 when execution of thecomputer program instructions is desired. Thus, the method steps of FIG.5 can be defined by the computer program instructions stored in memory710 and/or data storage device 712 and controlled by processor 704executing the computer program instructions. For example, the computerprogram instructions can be implemented as computer executable codeprogrammed by one skilled in the art to perform the method steps of FIG.5. Accordingly, by executing the computer program instructions, theprocessor 704 executes the method steps of FIG. 5. Computer 702 alsoincludes one or more network interfaces 706 for communicating with otherdevices via a network. Computer 702 also includes one or moreinput/output devices 708 that enable user interaction with computer 702(e.g., display, keyboard, mouse, speakers, buttons, etc.).

Processor 704 may include both general and special purposemicroprocessors, and may be the sole processor or one of multipleprocessors of computer 702. Processor 704 may include one or morecentral processing units (CPUs), for example. Processor 704, datastorage device 712, and/or memory 710 may include, be supplemented by,or incorporated in, one or more application-specific integrated circuits(ASICs) and/or one or more field programmable gate arrays (FPGAs).

Data storage device 712 and memory 710 each include a tangiblenon-transitory computer readable storage medium. Data storage device712, and memory 710, may each include high-speed random access memory,such as dynamic random access memory (DRAM), static random access memory(SRAM), double data rate synchronous dynamic random access memory (DDRRAM), or other random access solid state memory devices, and may includenon-volatile memory, such as one or more magnetic disk storage devicessuch as internal hard disks and removable disks, magneto-optical diskstorage devices, optical disk storage devices, flash memory devices,semiconductor memory devices, such as erasable programmable read-onlymemory (EPROM), electrically erasable programmable read-only memory(EEPROM), compact disc read-only memory (CD-ROM), digital versatile discread-only memory (DVD-ROM) disks, or other non-volatile solid statestorage devices.

Input/output devices 708 may include peripherals, such as a printer,scanner, display screen, etc. For example, input/output devices 708 mayinclude a display device such as a cathode ray tube (CRT) or liquidcrystal display (LCD) monitor for displaying information to the user, akeyboard, and a pointing device such as a mouse or a trackball by whichthe user can provide input to computer 702.

Any or all of the systems and apparatus discussed herein, includingmessaging platform 100, may be implemented using one or more computerssuch as computer 702.

One skilled in the art will recognize that an implementation of anactual computer or computer system may have other structures and maycontain other components as well, and that FIG. 7 is a high levelrepresentation of some of the components of such a computer forillustrative purposes.

The foregoing Detailed Description is to be understood as being in everyrespect illustrative and exemplary, but not restrictive, and the scopeof the inventive concept disclosed herein is not to be determined fromthe Detailed Description, but rather from the claims as interpretedaccording to the full breadth permitted by the patent laws. It is to beunderstood that the embodiments shown and described herein are onlyillustrative of the principles of the inventive concept and that variousmodifications may be implemented by those skilled in the art withoutdeparting from the scope and spirit of the inventive concept. Thoseskilled in the art could implement various other feature combinationswithout departing from the scope and spirit of the inventive concept.

What is claimed is:
 1. A method for identifying relevant messages in aconversation graph, the method comprising: transmitting, over a network,messages between a plurality of users on a messaging platform;generating a conversation graph based on relationships between themessages, the conversation graph including a plurality of messagesrelated to a conversation, the plurality of messages including a rootmessage and one or more reply messages connected to the root message;marking a subset of the plurality of messages of the conversation graphas relevant to the conversation, including: identifying a topic based ona semantic analysis of at least one of the plurality of messages of theconversation graph; determining that a user account of a message in theconversation graph is relevant to the topic; and marking the message asrelevant; transmitting, over the network, digital information to renderthe subset of the plurality of messages on a user interface of acomputing device.
 2. The method of claim 1, wherein the identifyingincludes calculating a relevance score representing a relevance of atleast one of the plurality of messages of the conversation graph to thetopic and identifying the topic as relevant to conversation graph inresponse to the relevance score being above a threshold level.
 3. Themethod of claim 1, wherein the determining includes calculating arelevance score representing a relevance of the user account to thetopic and determining that the user account is relevant to the topic inresponse to the relevance score being above a threshold level.
 4. Themethod of claim 1, wherein the marking the subset includes marking amessage of the conversation graph as relevant based on a number ofengagements with the message being above a threshold amount.
 5. Themethod of claim 1, wherein the marking the subset includes marking amessage of the conversation graph as relevant based on an author of themessage having authored more than a predefined number of messages. 6.The method of claim 1, wherein the marking the subset includes marking amessage of the conversation graph as relevant based on author of themessage having a user rating above a threshold level.
 7. The method ofclaim 1, further comprising: receiving a request for additional relevantmessages related to the conversation graph; and transmitting, over thenetwork, another subset of messages from the conversation graph inresponse to the request.
 8. The method of claim 1, wherein the subset ofthe plurality of messages is configured to be displayed in an orderbased on a respective time at which each message of the subset wasposted to the messaging platform.
 9. The method of claim 1, furthercomprising: identifying a context message in the conversation graph,wherein the marking the subset includes marking one or more messages inthe conversation graph as relevant based on the context message.
 10. Themethod of claim 9, wherein the context message is a message selected bya user from a message stream rendered on the user interface, a messagereturned in response to a search request on the messaging platform, or amessage associated with a notification message sent to a user.
 11. Themethod of claim 9, further comprising: filtering the conversation graphto include the root message, the context message, messages connectingthe root message to the context message, and direct or indirect childrenmessages of the context message; and identifying the subset of theplurality of messages using the filtered conversation graph.
 12. Themethod of claim 9, wherein the subset of the plurality of messagesincludes the context message, one or more messages of the conversationgraph that were posted to the messaging platform before the contextmessage, and one or more messages of the conversation graph that wereposted to the messaging platform after the context message.
 13. Amessaging system for identifying relevant messages of a conversationgraph, the system comprising: one or more computer processors; aconversation module configured to execute on the one or more computerprocessors, the conversation module configured to generate aconversation graph based on relationships between messages exchanged onthe messaging system, the conversation graph including a plurality ofmessages, the plurality of messages including a root message and one ormore reply messages connected to the root message; a semantics analysismodule configured to execute on the one or more computer processors, thesemantics analysis module configured to identify a topic based on asemantic analysis of at least one of the plurality of messages, anddetermine that a user account of a message in the conversation graph isrelevant to the topic, the conversation module configured to mark asubset of the plurality of messages of the conversation graph asrelevant such that the subset includes the message from the user accountthat is determined as relevant to the topic; and a frontend moduleconfigured to execute on the one or more computer processors, thefrontend module configured to transmit, over a network, digitalinformation to render the subset of the plurality of messages on a userinterface of a computing device.
 14. The messaging system of claim 13,wherein the conversation module is configured to receive anidentification of a message selected by a user from a message streamrendered on the user interface, and to identify the message as a contextmessage within the conversation graph, the conversation moduleconfigured to mark one or more messages in the conversation graph asrelevant based on the context message.
 15. The messaging system of claim13, wherein the conversation module is configured to receiveidentification of a message containing one or more terms submitted in asearch request on the messaging system, and to identify the message as acontext message within the conversation graph, the conversation moduleconfigured to mark one or more messages in the conversation graph asrelevant based on the context message.
 16. The messaging system of claim13, wherein the conversation module is configured to receiveidentification of a message associated with a notification message sentto a user, and to identify the message as a context message within theconversation graph, the conversation module configured to mark one ormore messages in the conversation graph as relevant based on the contextmessage.
 17. The messaging system of claim 13, wherein the conversationmodule is configured to identify a context message in the conversationgraph, and identify a set of authors as relevant, the set of authorsincluding an author of the context message, wherein the subset of theplurality of messages include messages authored by the set of authors.18. The messaging system of claim 13, wherein the conversation module isconfigured to identify a context message in the conversation graph andmark a message of the conversation graph as relevant based on a useraccount of the message being within a predefined number of degrees ofseparation from a user account of the context message.
 19. Acomputer-readable medium storing executable instructions that whenexecuted by at least one processor are configured to cause the at leastone processor to: display a message stream associated with a useraccount on a user interface of a computing device, the message streamincluding a plurality of messages posted on a messaging platform, atleast one of the plurality of messages being selected for inclusionwithin the message stream based a connection graph stored in aconnection graph repository of the messaging platform; receive aselection of a message associated with the user account, the messagebeing included within a conversation graph identifying a plurality ofmessages, the plurality of messages of the conversation graph includinga root message and one or more reply messages connected to the rootmessage; and display a portion of the conversation graph such that asubset of the plurality of messages relevant to the display message aredisplayed on the user interface, the subset including a messageassociated with a user account in which the user account has beensemantically determined as related to a topic of the conversation graph.20. The computer-readable medium of claim 19, wherein the selectedmessage is a message from the message stream rendered on the userinterface, a message returned in response to a search request on themessaging platform, or a message associated with a notification messagesent to the user interface.
 21. The computer-readable medium of claim19, further comprising: calculate a first relevance score representing arelevance of at least one of the plurality of messages of theconversation graph to the topic; identify the topic as relevant to theconversation graph in response to the first relevance score being abovea first threshold level; calculate a second relevance score representinga relevance of the user account to the topic; and determine that theuser account is relevant to the topic in response to the secondrelevance score being above a second threshold level.
 22. Thecomputer-readable medium of claim 19, further comprising: mark a messageof the conversation graph as relevant based on a number of engagementswith the message being above a threshold amount such that the markedmessage is included in the subset for display on the user interface, thenumber of engagements including at least one of a number of times themessages has been re-posted or a number of times the message has beenfavoritized, wherein the message of the conversation graph is included.23. The computer-readable medium of claim 19, further comprising: mark amessage of the conversation graph as relevant based on a number of useraccounts linked to an author of the message in the connection graphbeing above a threshold amount such that the marked message is includedin the subset for display on the user interface.
 24. Thecomputer-readable medium of claim 19, further comprising: identify auser account mentioned in a body of the message; and mark a messageposted by the user account mentioned in the body of the message asrelevant such that the marked message is included in the subset fordisplay on the user interface.
 25. The computer-readable medium of claim19, further comprising: identify a context message in the conversationgraph; filter the conversation graph to include the root message, thecontext message, messages connecting the root message to the contextmessage, and direct or indirect children messages of the contextmessage; and identify the subset of the plurality of messages using thefiltered conversation graph.
 26. The computer-readable medium of claim25, wherein the subset of the plurality of messages includes the contextmessage, one or more messages of the conversation graph that were postedto the messaging platform before the context message, and one or moremessages of the conversation graph that were posted to the messagingplatform after the context message.